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University of Cambridge > Talks.cam > Synthetic Chemistry Research Interest Group > MK-7602: A Promising Breakthrough in Antimalarial Invention from an Efficient Academia/Industry Collaboration
MK-7602: A Promising Breakthrough in Antimalarial Invention from an Efficient Academia/Industry CollaborationAdd to your list(s) Download to your calendar using vCal
If you have a question about this talk, please contact spring. Malaria is a devastating disease that affects over half a million people each year mostly children under five years old and pregnant women. Antimalarial drug discovery by and large is focused on the identification of novel drugs to treat and prevent the disease due to the emergence and spread of Plasmodium strains resistant to existing medicines. In particular arteminisin resistance which has now spread from South East Asia and is firmly established in Africa (as reported at ASTMH in Seattle Oct 2022). The Merck Research Labs (led by Dr. David Olsen) and the Walter and Eliza Hall Institute of Medical Research (WEHI) (led by Prof. Alan Cowman), have teamed up to invent novel drug candidates by targeting the Plasmodium parasite via newly identified essential aspartyl proteases. The team has been greatly assisted in this endeavor with generous funding for the collaboration from the Wellcome Trust (UK). The team was successful at identifying potent dual protease targeting hits that lead to the identification of an important tool compound WM382 with subnanomolar inhibitory potency in vitro. This was accomplished through targeted phenotypic screening and structure-guided medicinal chemistry to optimize orphan (mechanism of action unknown) hit compounds. WM382 was also used to establish impressive in vivo proof-of-concept efficacy not only on blood stage parasitemia but also potent pharmacodynamic effects in the sexual/mosquito and liver stages of replication. Finally, Justin Boddey’s team at WEHI determined that defective parasites under WM382 drug coverage yield some interesting immunological effects in mice in vivo. Further optimization of potency and pharmacokinetic and selectivity profiles resulted in the invention of clinical compound MK-7602, a very potent PMIX /X dual inhibitor with robust in vivo efficacy in mice at the three stages of the malaria parasite lifecycle and excellent off-target activity and resistance profiles. Publications related to this work: 1. The Invention of WM382 , a Highly Potent PMIX /X Dual Inhibitor toward the Treatment of Malaria (journal cover shown above). 2. Dual Plasmepsin-Targeting Antimalarial Agents Disrupt Multiple Stages of the Malaria Parasite Life Cycle. 3. Basis for drug selectivity of plasmepsin IX and X inhibition for Plasmodium falciparum and vivax. Bio: Manuel de Lera Ruiz Bio: Manuel de Lera Ruiz received his B.Sc. in Organic Chemistry from the Universidad Autónoma of Madrid in 1997. After completion of his Ph.D. in 2001 from the University of Nottingham, U.K. he joined Professor Leo A. Paquette research labs at Ohio State University as a postdoctoral fellow. In 2003, he started a career in Medicinal Chemistry at Schering-Plough Research Institute in New Jersey. Manuel moved to Merck’s West Point site in 2012 where he worked for three and a half years in Discovery Process Chemistry. In 2016 he moved back to medicinal chemistry at West Point where he is currently a Principal Scientist in Discovery Chemistry co-leading the Malaria plasmepsin inhibitors program. This talk is part of the Synthetic Chemistry Research Interest Group series. This talk is included in these lists:
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